Why is the change in electric potential leading to a negative work value?

In summary, the conversation discusses the difference between electric potential and potential energy, and how they are mathematically represented. The answer to the given problem involves calculating the work required to move a charge, which is found by multiplying the charge by the change in voltage potential.
  • #1
Ry122
565
2
http://users.on.net/~rohanlal/elec.jpg

for question b, wouldn't there be no change in electric potential since
electric potential for a particular point is determined by the sum of the electric potentials for
each particular charge about that point, and if a charge is moved to point p
and the eq for electric potential is kq/r then that charge would be 0 since r would be 0.
 
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  • #2
for question b, wouldn't there be no change in electric potential...

In b) they are asking for the change in potential energy. This is not the same as asking for the electric potential - i.e. the voltage.

The change in potential energy is going to be expressed as the work required to move the charge.

For b) then what you want to explore is work given by ...

W = qΔV

The voltage at ∞ is 0, so ... ΔV = simply the voltage at P.
 
  • #3
According to my lecture notes electric potential is the same as potential energy.

the answer to this problem requires the initial electric potential of the system which is found by

http://users.on.net/~rohanlal/pot.jpg

to be subtracted from 3.0x10^-6
which gives a final answer of - 1.89 x 10-2

but i don't understand why this is the case
 
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  • #4
Ry122 said:
According to my lecture notes electric potential is the same as potential energy.
Your lecture notes are wrong, then...

Mathematically, electric potential is
[tex]V = k\frac{q}{r}[/tex]
whereas electrical potential energy is
[tex]U_E = k\frac{q_1 q_2}{r}[/tex]
 
  • #5
Ry122 said:
According to my lecture notes electric potential is the same as potential energy.

the answer to this problem requires the initial electric potential of the system which is found by

to be subtracted from 3.0x10^-6
which gives a final answer of - 1.89 x 10-2

but i don't understand why this is the case

It's not subtracted.

The Work is the charge times the change in voltage potential.

What they want is Work.

And if you multiply the charge by the Voltage, then you get the answer indicated.
 

1. What is electric potential?

Electric potential is a scalar quantity that represents the amount of work needed to move a unit of positive charge from a reference point to a specific point in an electric field. It is measured in volts (V).

2. How does electric potential differ from electric potential energy?

Electric potential energy is the energy stored in an object due to its position in an electric field, while electric potential is the potential energy per unit of charge at a specific point in the field. In other words, electric potential is a measure of the intensity of the electric field, while electric potential energy is a measure of the capacity of the field to do work.

3. What causes a change in electric potential?

A change in electric potential is caused by the presence of an electric field. This can be due to the presence of electric charges, such as electrons or protons, or by the movement of these charges. Changes in electric potential can also be caused by changes in the distance between charges or changes in the strength of the electric field.

4. How is electric potential measured?

Electric potential is measured using a voltmeter, which measures the difference in electric potential between two points in an electric field. The unit of measurement for electric potential is volts (V), which is equivalent to joules per coulomb (J/C).

5. What are some real-life applications of electric potential?

Electric potential is a fundamental concept in electricity and is used in a wide range of applications, including electric circuits, batteries, and generators. It is also essential in understanding the behavior of charged particles in fields, such as in medical imaging technologies like magnetic resonance imaging (MRI) and particle accelerators used in scientific research.

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